Roberto C. Arbulu scite author profile

New mechanisms for the controlled growth of one-dimensional (1D) metal-organic framework (MOF) nano- and superstructures under size-confinement and surface-directing effects have been discovered. Through applying interfacial synthesis templated by track-etched polycarbonate (PCTE) membranes, congruent polycrystalline zeolitic imidazolate framework-8 (ZIF-8) solid nanorods and hollow nanotubes were found to form within 100 nm membrane pores, while single crystalline ZIF-8 nanowires grew inside 30 nm pores, all of which possess large aspect ratios up to 60 and show preferential crystal orientation with the {100} planes aligned parallel to the long axis of the pore. Our findings provide a generalizable method for controlling size, morphology, and lattice orientation of MOF nanomaterials.

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Metal–Organic Framework (MOF) Nanorods, Nanotubes, and Nanowires

Arbulu

Jiang

Peterson

et al. 2018

Angewandte Chemie

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New mechanisms for the controlled growth of onedimensional (1D) metal-organic framework (MOF) nanoand superstructures under size-confinement and surfacedirecting effects have been discovered. Through applying interfacial synthesis templated by track-etched polycarbonate (PCTE) membranes,congruent polycrystalline zeolitic imidazolate framework-8 (ZIF-8) solid nanorods and hollow nanotubes were found to form within 100 nm membrane pores, while single crystalline ZIF-8 nanowires grew inside 30 nm pores,all of whichpossess large aspect ratios up to 60 and show preferential crystal orientation with the {100} planes aligned parallel to the long axis of the pore.O ur findings provide ag eneralizable method for controlling size, morphology,a nd lattice orientation of MOF nanomaterials.

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Generating Photonastic Work from Irradiated Dyes in Electrospun Nanofibrous Polymer Mats

Livshits

Razgoniaev

Arbulu

et al. 2018

ACS Appl. Mater. Interfaces

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For solar-driven macroscopic motions, we assert that there is a local heating that facilitates large-scale deformations in anisotropic morphologic materials caused by thermal gradients. This report specifically identifies the fate of heat generation in photonastic materials and demonstrates how heat can perform work following excitation of a nonisomerizing dye. Utilizing the electrospinning technique, we have created a series of anisotropic nanofibrous polymer mats that comprise nonisomerizing dyes. Polymers are chosen because of their relative glass transition temperatures, elastic moduli, and melting temperatures. Light irradiation of these polymer mats with an excitation wavelength matching the absorption characteristics of the dye leads to macroscopic deformation of the mat. Analysis of still images extracted from digital videos provides plots of angular displacement vs power. The data were analyzed in terms of a photothermal model. Analyses of scanning electron microscopy micrographs for all samples are consistent to local melting in low T g polymers and softening in high T g polymers. Dynamic mechanical analysis allowed for quantification of the modulus change under a given light fluence. We employ these data to calculate a energy conversion efficiency. These efficiencies for the polymer mats are compared to other nonmuscular systems, including a few natural, biological samples.

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Roberto C. Arbulu

Metal–Organic Framework (MOF) Nanorods, Nanotubes, and Nanowires

Metal–Organic Framework (MOF) Nanorods, Nanotubes, and Nanowires

Generating Photonastic Work from Irradiated Dyes in Electrospun Nanofibrous Polymer Mats

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